a) When a DP moves in the Dipole Sea (for example: in an electron orbital, as an electron in a wire, or as an electron beam in a CRT), the movement causes a change in the electric field experienced by the surrounding DPs. This change in electric field causes the local DPs to reorient their magnetic poles in response to the change. The magnetic field points in a direction related to the increase or decrease of electric field.

b) At each Moment, the DPs under the influence of the advancing charge, are only partially to a place of equilibrium due to the presence of the FPs that have arrived from the previous moment. Thus, the state of the DPs due to the presence of a moving charge is inherently in a place of dynamic non-equilibrium.

c) The FPs polarize DPs along their radial paths, causing the repulsion of like-charged DPs, and an attraction of oppositely charged DPs. The effect of the movement of the DPs due to the E (electric) field is to generate a B (magnetic) field by the selective movement of the charged DPs.

d) After having been moved, the DPs in every volume of space immediately begin to reorient themselves each Moment so as to have randomly oriented B fields. Thus, if all the positive charges in a space are selectively moved inward toward an incoming electron, and the positive charges in that same space are selectively moved outward by that same electron, the net effect is to create a disparity in the magnetic cancellation.

i) As a complicating factor, the individual electrons in a beam may have a magnetic orientation, which will orient the magnetic poles of the DPs along the path of travel by the FPs. But, the magnetic orientation of a traveling DP is probably random. Thus we shall assume that the magnetic orientation of the individual particles in an electron beam is not a major factor in the creation of the magnetic field surrounding a traveling charged particle.

ii) Additionally, there are multiple moving charges, each of which are emitting FPs that are traveling through the same space. Thus, at each Moment there is a net orientation of the DPs due to the summation of the forces acting on each DP at each Moment.

iii) Since there may be multiple FPs in the space of a DP (or group of DPs that is monitoring a space), the electrical force and magnetic force on the space will always be the summation of the entirety of the fields associated with the FPs, and the change in field.

e) In summary, the movement of DPs produces a variation in the electric field in the local space, which creates a magnetic field by the selective migration of positive and negative charges. It is in this magnetic field that kinetic energy is stored.